processed = 0;
for (i = 0; i < vec->num; ++i) {
aesni_gcm_process_gcm_sgl_op(s, gdata_ctx,
- &vec->sgl[i], vec->iv[i].va,
+ &vec->src_sgl[i], vec->iv[i].va,
vec->aad[i].va);
vec->status[i] = aesni_gcm_sgl_op_finalize_encryption(s,
gdata_ctx, vec->digest[i].va);
processed = 0;
for (i = 0; i < vec->num; ++i) {
aesni_gcm_process_gcm_sgl_op(s, gdata_ctx,
- &vec->sgl[i], vec->iv[i].va,
+ &vec->src_sgl[i], vec->iv[i].va,
vec->aad[i].va);
vec->status[i] = aesni_gcm_sgl_op_finalize_decryption(s,
gdata_ctx, vec->digest[i].va);
processed = 0;
for (i = 0; i < vec->num; ++i) {
- if (vec->sgl[i].num != 1) {
+ if (vec->src_sgl[i].num != 1) {
vec->status[i] = ENOTSUP;
continue;
}
aesni_gcm_process_gmac_sgl_op(s, gdata_ctx,
- &vec->sgl[i], vec->iv[i].va);
+ &vec->src_sgl[i], vec->iv[i].va);
vec->status[i] = aesni_gcm_sgl_op_finalize_encryption(s,
gdata_ctx, vec->digest[i].va);
processed += (vec->status[i] == 0);
processed = 0;
for (i = 0; i < vec->num; ++i) {
- if (vec->sgl[i].num != 1) {
+ if (vec->src_sgl[i].num != 1) {
vec->status[i] = ENOTSUP;
continue;
}
aesni_gcm_process_gmac_sgl_op(s, gdata_ctx,
- &vec->sgl[i], vec->iv[i].va);
+ &vec->src_sgl[i], vec->iv[i].va);
vec->status[i] = aesni_gcm_sgl_op_finalize_decryption(s,
gdata_ctx, vec->digest[i].va);
processed += (vec->status[i] == 0);